rebar/src/rebar_port_compiler.erl

283 lines
11 KiB
Erlang

%% -*- tab-width: 4;erlang-indent-level: 4;indent-tabs-mode: nil -*-
%% ex: ts=4 sw=4 et
%% -------------------------------------------------------------------
%%
%% rebar: Erlang Build Tools
%%
%% Copyright (c) 2009 Dave Smith (dizzyd@dizzyd.com)
%%
%% Permission is hereby granted, free of charge, to any person obtaining a copy
%% of this software and associated documentation files (the "Software"), to deal
%% in the Software without restriction, including without limitation the rights
%% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
%% copies of the Software, and to permit persons to whom the Software is
%% furnished to do so, subject to the following conditions:
%%
%% The above copyright notice and this permission notice shall be included in
%% all copies or substantial portions of the Software.
%%
%% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
%% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
%% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
%% AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
%% LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
%% OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
%% THE SOFTWARE.
%% -------------------------------------------------------------------
-module(rebar_port_compiler).
-export([compile/2,
clean/2]).
-include("rebar.hrl").
%% ===================================================================
%% Public API
%% ===================================================================
%% Supported configuration variables:
%%
%% * port_sources - Erlang list of files and/or wildcard strings to be compiled
%%
%% * port_envs - Erlang list of key/value pairs which will control the environment when
%% running the compiler and linker. By default, the following variables
%% are defined:
%% CC - C compiler
%% CXX - C++ compiler
%% CFLAGS - C compiler
%% CXXFLAGS - C++ compiler
%% LDFLAGS - Link flags
%% DRIVER_CFLAGS - default -I paths for erts and ei
%% DRIVER_LDFLAGS - default -L and -lerl_interface -lei
%%
%% Note that if you wish to extend (vs. replace) these variables, you MUST
%% include a shell-style reference in your definition. E.g. to extend CFLAGS,
%% do something like:
%%
%% {port_envs, [{"CFLAGS", "$CFLAGS -MyOtherOptions"}]}
%%
%% It is also possible to specify platform specific options by specifying a triplet
%% where the first string is a regex that is checked against erlang's system architecture
%% string. E.g. to specify a CFLAG that only applies to x86_64 on linux do:
%%
%% {port_envs, [{"x86_64.*-linux", "CFLAGS", "$CFLAGS -X86Options"}]}
%%
%% * port_pre_script - Tuple which specifies a pre-compilation script to run, and a filename that
%% exists as a result of the script running.
%%
%% * port_cleanup_script - String that specifies a script to run during cleanup. Use this to remove
%% files/directories created by port_pre_script.
%%
compile(Config, AppFile) ->
%% Compose list of sources from config file -- defaults to c_src/*.c
Sources = expand_sources(rebar_config:get_list(Config, port_sources, ["c_src/*.c"]), []),
case Sources of
[] ->
ok;
_ ->
%% Extract environment values from the config (if specified) and merge with the
%% default for this operating system. This enables max flexibility for users.
DefaultEnvs = filter_envs(default_env(), []),
OverrideEnvs = filter_envs(rebar_config:get_list(Config, port_envs, []), []),
Env = merge_envs(OverrideEnvs, DefaultEnvs),
%% One or more files are available for building. Run the pre-compile hook, if
%% necessary.
run_precompile_hook(Config, Env),
%% Compile each of the sources
{NewBins, ExistingBins} = compile_each(Sources, Config, Env, [], []),
%% Construct the driver name and make sure priv/ exists
SoName = so_name(Config, AppFile),
ok = filelib:ensure_dir(SoName),
%% Only relink if necessary, given the SoName and list of new binaries
case needs_link(SoName, NewBins) of
true ->
AllBins = string:join(NewBins ++ ExistingBins, " "),
rebar_utils:sh_failfast(?FMT("$CC ~s $LDFLAGS $DRIVER_LDFLAGS -o ~s", [AllBins, SoName]), Env);
false ->
?INFO("Skipping relink of ~s\n", [SoName]),
ok
end
end.
clean(Config, AppFile) ->
%% Build a list of sources so as to derive all the bins we generated
Sources = expand_sources(rebar_config:get_list(Config, port_sources, ["c_src/*.c"]), []),
rebar_file_utils:delete_each([source_to_bin(S) || S <- Sources]),
%% Delete the .so file
rebar_file_utils:delete_each([so_name(Config, AppFile)]),
%% Run the cleanup script, if it exists
run_cleanup_hook(Config).
%% ===================================================================
%% Internal functions
%% ===================================================================
expand_sources([], Acc) ->
Acc;
expand_sources([Spec | Rest], Acc) ->
Acc2 = filelib:wildcard(Spec) ++ Acc,
expand_sources(Rest, Acc2).
run_precompile_hook(Config, Env) ->
case rebar_config:get(Config, port_pre_script, undefined) of
undefined ->
ok;
{Script, BypassFileName} ->
case filelib:is_regular(BypassFileName) of
false ->
?CONSOLE("Running ~s\n", [Script]),
rebar_utils:sh_failfast(Script, Env);
true ->
?INFO("~s exists; not running ~s\n", [BypassFileName, Script])
end
end.
run_cleanup_hook(Config) ->
case rebar_config:get(Config, port_cleanup_script, undefined) of
undefined ->
ok;
Script ->
?CONSOLE("Running ~s\n", [Script]),
rebar_utils:sh_failfast(Script, [])
end.
compile_each([], _Config, _Env, NewBins, ExistingBins) ->
{lists:reverse(NewBins), lists:reverse(ExistingBins)};
compile_each([Source | Rest], Config, Env, NewBins, ExistingBins) ->
Ext = filename:extension(Source),
Bin = filename:rootname(Source, Ext) ++ ".o",
case needs_compile(Source, Bin) of
true ->
?CONSOLE("Compiling ~s\n", [Source]),
case compiler(Ext) of
"$CC" ->
rebar_utils:sh_failfast(?FMT("$CC -c $CFLAGS $DRIVER_CFLAGS ~s -o ~s", [Source, Bin]), Env);
"$CXX" ->
rebar_utils:sh_failfast(?FMT("$CXX -c $CXXFLAGS $DRIVER_CFLAGS ~s -o ~s", [Source, Bin]), Env)
end,
compile_each(Rest, Config, Env, [Bin | NewBins], ExistingBins);
false ->
?INFO("Skipping ~s\n", [Source]),
compile_each(Rest, Config, Env, NewBins, [Bin | ExistingBins])
end.
needs_compile(Source, Bin) ->
%% TODO: Generate depends using gcc -MM so we can also check for include changes
filelib:last_modified(Bin) < filelib:last_modified(Source).
needs_link(SoName, []) ->
?DEBUG("2 Lad mod \n", []),
filelib:last_modified(SoName) == 0;
needs_link(SoName, NewBins) ->
MaxLastMod = lists:max([filelib:last_modified(B) || B <- NewBins]),
case filelib:last_modified(SoName) of
0 ->
?DEBUG("Last mod is 0 on ~s\n", [SoName]),
true;
Other ->
?DEBUG("Checking ~p >= ~p", [MaxLastMod, Other]),
MaxLastMod >= Other
end.
merge_envs(OverrideEnvs, DefaultEnvs) ->
orddict:merge(fun(Key, Override, Default) ->
expand_env_variable(Override, Key, Default)
end,
orddict:from_list(OverrideEnvs),
orddict:from_list(DefaultEnvs)).
%%
%% Choose a compiler variable, based on a provided extension
%%
compiler(".cc") -> "$CXX";
compiler(".cp") -> "$CXX";
compiler(".cxx") -> "$CXX";
compiler(".cpp") -> "$CXX";
compiler(".CPP") -> "$CXX";
compiler(".c++") -> "$CXX";
compiler(".C") -> "$CXX";
compiler(_) -> "$CC".
%%
%% Given env. variable FOO we want to expand all references to
%% it in InStr. References can have two forms: $FOO and ${FOO}
%%
expand_env_variable(InStr, VarName, VarValue) ->
R1 = re:replace(InStr, "\\\$" ++ VarName, VarValue),
re:replace(R1, "\\\${" ++ VarName ++ "}", VarValue, [{return, list}]).
%%
%% Filter a list of env vars such that only those which match the provided
%% architecture regex (or do not have a regex) are returned.
%%
filter_envs([], Acc) ->
lists:reverse(Acc);
filter_envs([{ArchRegex, Key, Value} | Rest], Acc) ->
case rebar_utils:is_arch(ArchRegex) of
true ->
filter_envs(Rest, [{Key, Value} | Acc]);
false ->
filter_envs(Rest, Acc)
end;
filter_envs([{Key, Value} | Rest], Acc) ->
filter_envs(Rest, [{Key, Value} | Acc]).
erts_dir() ->
lists:concat([code:root_dir(), "/erts-", erlang:system_info(version)]).
default_env() ->
[{"CC", "gcc"},
{"CXX", "g++"},
{"CFLAGS", "-g -Wall -fPIC"},
{"CXXFLAGS", "-g -Wall -fPIC"},
{"darwin", "LDFLAGS", "-bundle -flat_namespace -undefined suppress"},
{"linux", "LDFLAGS", "-shared"},
{"DRIVER_CFLAGS", lists:concat([" -I", code:lib_dir(erl_interface, include),
" -I", filename:join(erts_dir(), include),
" "])},
{"DRIVER_LDFLAGS", lists:concat([" -L", code:lib_dir(erl_interface, lib),
" -lerl_interface -lei"])}].
source_to_bin(Source) ->
Ext = filename:extension(Source),
filename:rootname(Source, Ext) ++ ".o".
so_name(Config, AppFile) ->
%% Check config to see if a custom so_name has been specified
PortName = case rebar_config:get(Config, so_name, undefined) of
undefined ->
%% Get the app name, which we'll use to
%% generate the linked port driver name
case rebar_app_utils:load_app_file(AppFile) of
{ok, AppName, _} ->
AppName;
error ->
?FAIL
end;
Soname ->
Soname
end,
%% Construct the driver name
?FMT("priv/~s_drv.so", [PortName]).